Abstract
The arsRDABC operon of Escherichia coli plasmid R773 encodes the ArsAB extrusion pump for the trivalent metalloids As(III) and Sb(III). ArsA, the catalytic subunit has two homologous halves, A1 and A2. Each half has a consensus signal transduction domain that physically connects the nucleotide-binding domain to the metalloid-binding domain. The relation between metalloid binding by ArsA and transport through ArsB is unclear. In this study, direct metalloid binding to ArsA was examined. The results show that ArsA binds a single Sb(III) with high affinity only in the presence of Mg(2+)-nucleotide. Mutation of the codons for Cys-113 and Cys-422 eliminated Sb(III) binding to purified ArsA. C113A/C422A ArsA has basal ATPase activity similar to that of the wild type but lacks metalloid-stimulated activity. Accumulation of metalloid was assayed in intact cells, where reduced uptake results from active extrusion by the ArsAB pump. Cells expressing the arsA(C113A/C422A)B genes had an intermediate level of metalloid resistance and accumulation between those expressing only arsB alone and those expressing wild type arsAB genes. The results indicate that, whereas metalloid stimulation of ArsA activity enhances the ability of the pump to reduce the intracellular concentration of metalloid, high affinity binding of metalloid by ArsA is not obligatory for transport or resistance. Yet, in mixed populations of cells bearing either arsAB or arsA(C113A/C422A)B growing in subtoxic concentrations of arsenite, cells bearing wild type arsAB replaced cells with mutant arsA(C113A/C422A)B in less than 1 week, showing that the metalloid binding site confers an evolutionary advantage.
Highlights
From A2 (Site 2), and the third to His-148 from A1 and Ser-420 from A2 (Site 3)
ArsA has two signature sequences that serve as signal transduction domains (STDs), D142TAPTGH148TIRLL in A1 (STD1) and D447TAPTGH453TLLLL in A2 (STD2), which corresponds to the Switch II region of many other nucleotide-binding proteins and have been proposed to be involved in transmission of the energy of ATP hydrolysis to metalloid transport [6]
Is the metalloid bound at the MBD a transport substrate or is it an allosteric activator of the pump? A C113A/C422A mutation introduced into ArsA was found to eliminate high affinity metalloid binding to ArsA
Summary
Cells were grown at 37 °C in LuriaBertani (LB) medium [8] with either ampicillin (Ap) (125 g/ml) or tetracycline (Tc) (12.5 g/ml), as required. Overnight cultures were diluted 100-fold into fresh LB medium containing the indicated concentrations of sodium arsenite. Growth in mixed cultures was performed as follows. Cells of E. coli strain AW3110 bearing either pAlter1-ArsAB (Apr/Tcs) or pAlter1-ArsAC113A/C422AB (Apr/Tcr) were grown overnight in LB medium at 37 °C. The cultures were mixed at a 1:1 ratio, diluted 1:1000 in fresh LB medium containing 125 g/ml ampicillin and 4 M sodium arsenite, and grown at 37 °C overnight. Viable counts following serial dilutions were determined on LB plates containing 125 g/ml ampicillin to obtain a total cell count or 12.5 g/ml tetracycline to determine the fraction of cells bearing only pAlter1-ArsAC113A/C422AB.
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